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Quantification of the spin-Hall anti-damping torque with a resonance spectrometer

We present a simple technique using a cavity-based resonance spectrometer to quantify the anti-damping torque due to the spin Hall effect. Modification of ferromagnetic resonance is observed as a function of small DC current in sub-mm-wide strips of bilayers, consisting of magnetically soft FeGaB and strong spin-Hall metal Ta. From the detected current-induced linewidth change, we obtain an effective spin Hall angle of 0.08-0.09 independent of the magnetic layer thickness. Our results demonstrate that a sensitive resonance spectrometer can be a general tool to investigate spin Hall effects in various material systems, even those with vanishingly low conductivity and magnetoresistance.

preprint2014arXivOpen access
Satoru EmoriTianxiang NanTrevor M. OxholmCarl T. BooneJohn G. JonesBrandon M. HoweGail J. BrownDavid E. BudilNian X. Sun
cond-mat.mes-hallcond-mat.mtrl-sci
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Open access9 authors2 topics
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Satoru EmoriTianxiang NanTrevor M. OxholmCarl T. BooneJohn G. JonesBrandon M. HoweGail J. BrownDavid E. BudilNian X. Sun

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